using System; using System.Collections.Generic; using System.Text.RegularExpressions; namespace Unity.Burst.Editor { internal struct SearchCriteria { internal string filter; internal bool isCaseSensitive; internal bool isWholeWords; internal bool isRegex; internal SearchCriteria(string keyword, bool caseSensitive, bool wholeWord, bool regex) { filter = keyword; isCaseSensitive = caseSensitive; isWholeWords = wholeWord; isRegex = regex; } internal bool Equals(SearchCriteria obj) => filter == obj.filter && isCaseSensitive == obj.isCaseSensitive && isWholeWords == obj.isWholeWords && isRegex == obj.isRegex; public override bool Equals(object obj) => obj is SearchCriteria other && Equals(other); public override int GetHashCode() => base.GetHashCode(); } internal static class BurstStringSearch { /// /// Gets index of line end in given string, both absolute and relative to start of line. /// /// String to search in. /// Line to get end index of. /// (absolute line end index of string, line end index relative to line start). /// /// Argument must be greater than 0 and less than or equal to number of lines in /// . /// internal static (int total, int relative) GetEndIndexOfPlainLine (string str, int line) { var lastIdx = -1; var newIdx = -1; for (var i = 0; i <= line; i++) { lastIdx = newIdx; newIdx = str.IndexOf('\n', lastIdx + 1); if (newIdx == -1 && i < line) { throw new ArgumentOutOfRangeException(nameof(line), "Argument must be greater than 0 and less than or equal to number of lines in str."); } } lastIdx++; return newIdx != -1 ? (newIdx, newIdx - lastIdx) : (str.Length - 1, str.Length - 1 - lastIdx); } /// /// Gets index of line end in given string, both absolute and relative to start of line. /// Adjusts the index so color tags are not included in relative index. /// /// String to search in. /// Line to find end of in string. /// (absolute line end index of string, line end index relative to line start adjusted for color tags). internal static (int total, int relative) GetEndIndexOfColoredLine(string str, int line) { var (total, relative) = GetEndIndexOfPlainLine(str, line); return RemoveColorTagFromIdx(str, total, relative); } /// /// Adjusts index of color tags on line. /// /// Assumes that is index of something not a color tag. /// String containing the indexes. /// Total index of line end. /// Relative index of line end. /// (, ) adjusted for color tags on line. private static (int total, int relative) RemoveColorTagFromIdx(string str, int tidx, int ridx) { var lineStartIdx = tidx - ridx; var colorTagFiller = 0; var tmp = str.LastIndexOf(" colorTagStart) { // color tag end was closest lastWasStart = false; colorTagStart = tmp; } while (colorTagStart != -1 && colorTagStart >= lineStartIdx) { var colorTagEnd = str.IndexOf('>', colorTagStart); // +1 as the index is zero based. colorTagFiller += colorTagEnd - colorTagStart + 1; if (lastWasStart) { colorTagStart = str.LastIndexOf(" /// Finds the zero indexed line number of given . /// /// String to search in. /// Index to find line number of. /// Line number of given index in string. internal static int FindLineNr(string str, int matchIdx) { var lineNr = 0; var idxn = str.IndexOf('\n'); while (idxn != -1 && idxn < matchIdx) { lineNr++; idxn = str.IndexOf('\n', idxn + 1); } return lineNr; } /// /// Finds first match of in given string. /// /// String to search in. /// Search options. /// Used when specifies regex search. /// Index to start the search at. /// (start index of match, length of match) internal static (int idx, int length) FindMatch(string str, SearchCriteria criteria, Regex regx, int startIdx = 0) { var idx = -1; var len = 0; if (criteria.isRegex) { // regex will have the appropriate options in it if isCaseSensitive or/and isWholeWords is true. var res = regx.Match(str, startIdx); if (res.Success) (idx, len) = (res.Index, res.Length); } else if (criteria.isWholeWords) { (idx, len) = (IndexOfWholeWord(str, startIdx, criteria.filter, criteria.isCaseSensitive ? StringComparison.InvariantCulture : StringComparison.InvariantCultureIgnoreCase), criteria.filter.Length); } else { unsafe { fixed (char* source = str) { fixed (char* target = criteria.filter) { (idx, len) = ( IndexOfCustom(source, str.Length, target, criteria.filter.Length, startIdx, criteria.isCaseSensitive) , criteria.filter.Length); } } } } return (idx, len); } internal static List<(int idx, int length)> FindAllMatches(string str, SearchCriteria criteria, Regex regx, int startIdx = 0) { var retVal = new List<(int, int)>(); if (criteria.isRegex) { var res = regx.Matches(str, startIdx); foreach (Match match in res) { retVal.Add((match.Index, match.Length)); } } else if (criteria.isWholeWords) { retVal.AddRange(IndexOfWholeWordAll(str, startIdx, criteria.filter, criteria.isCaseSensitive ? StringComparison.InvariantCulture : StringComparison.CurrentCultureIgnoreCase)); } else { unsafe { fixed (char* source = str) { fixed (char* target = criteria.filter) { retVal.AddRange(FindAllIndices(source, str.Length, target, criteria.filter.Length, startIdx, criteria.isCaseSensitive)); } } } } return retVal; } private static char ToUpper(char c) => c - 97U > 25U ? c : (char)(c - 32U); private static unsafe int ScanForFilterInsensitive(char* str, char* filter, int flen, int i) { int j = 0; while (j < flen && ToUpper(str[i + j]) == ToUpper(filter[j])) { j++; } return j; } private static unsafe int ScanForFilter(char* str, char* filter, int flen, int i) { int j = 0; while (j < flen && str[i + j] == filter[j]) { j++; } return j; } private static unsafe List<(int, int)> FindAllIndices(char* str, int len, char* filter, int flen, int startIdx, bool caseSensitive) { var retVal = new List<(int,int)>(); if (len < flen) { return retVal; } int stop = len - flen; if (caseSensitive) { for (int i = startIdx; i < stop; i++) { if (ScanForFilter(str, filter, flen, i) == flen) { retVal.Add((i, flen)); i += flen - 1; } } } else { for (int i = startIdx; i < stop; i++) { if (ScanForFilterInsensitive(str, filter, flen, i) == flen) { retVal.Add((i, flen)); i += flen-1; } } } return retVal; } /// /// Finds index of first occurence of in . /// /// String to search through /// Length of /// Needle to find /// Lenght of /// Index to start search from /// Whether search ignore casing /// index of first match or -1 private static unsafe int IndexOfCustom(char* str, int len, char* filter, int flen, int startIdx, bool caseSensitive) { if (len < flen) { return -1; } int stop = len - flen; if (caseSensitive) { for (int i = startIdx; i < stop; i++) { if (ScanForFilter(str, filter, flen, i) == flen) { return i; } } } else { for (int i = startIdx; i < stop; i++) { if (ScanForFilterInsensitive(str, filter, flen, i) == flen) { return i; } } } return -1; } /// /// Finds index of matching for whole words. /// /// String to search in. /// Index to start search from. /// Key to search for. /// Options for string comparison. /// Index of match or -1. private static int IndexOfWholeWord(string str, int startIdx, string filter, StringComparison opt) { const string wholeWordMatch = @"\w"; var j = startIdx; var filterLen = filter.Length; var strLen = str.Length; while (j < strLen && (j = str.IndexOf(filter, j, opt)) >= 0) { var noPrior = true; if (j != 0) { var frontBorder = str[j - 1]; noPrior = !Regex.IsMatch(frontBorder.ToString(), wholeWordMatch); } var noAfter = true; if (j + filterLen != strLen) { var endBorder = str[j + filterLen]; noAfter = !Regex.IsMatch(endBorder.ToString(), wholeWordMatch); } if (noPrior && noAfter) return j; j++; } return -1; } private static List<(int idx, int len)> IndexOfWholeWordAll(string str, int startIdx, string filter, StringComparison opt) { const string wholeWordMatch = @"\w"; var retVal = new List<(int, int)>(); var j = startIdx; var filterLen = filter.Length; var strLen = str.Length; while (j < strLen && (j = str.IndexOf(filter, j, opt)) >= 0) { var noPrior = true; if (j != 0) { var frontBorder = str[j - 1]; noPrior = !Regex.IsMatch(frontBorder.ToString(), wholeWordMatch); } var noAfter = true; if (j + filterLen != strLen) { var endBorder = str[j + filterLen]; noAfter = !Regex.IsMatch(endBorder.ToString(), wholeWordMatch); } if (noPrior && noAfter) { retVal.Add((j, filterLen)); j += filterLen - 1; } j++; } return retVal; } } }